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STILLBIRTH DUE TO HAEMOLYTIC DISEASE OF THE NEWBORN (1957)

Walker, William ; Murray, Sheilagh ; Russell, J. K.

Oxford, UK : Blackwell Publishing Ltd

BJOG 64 (1957), S. 0

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ISSN: 1471-0528

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1471-0528.1957.tb06287.x

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Characterization of volcanic deposits with ground-penetrating radar (1997)

Russell, J. K. ; Stasiuk, M. V.

Springer

Bulletin of volcanology 58 (1997), S. 515-527

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ISSN: 1432-0819

Keywords: Key words Ground-penetrating radar ; Volcanic deposits ; Stratigraphy ; Dielectric constant ; Radar velocity ; Pyroclastic flow ; Airfall ; Lava

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences

Notes: Abstract Field-based studies of surficial volcanic deposits are commonly complicated by a combination of poor exposure and rapid lateral variations controlled by unknown paleotopography. The potential of ground-penetrating radar (GPR) as an aid to volcanological studies is shown using data collected from traverses over four well-exposed, Recent volcanic deposits in western Canada. The deposits comprise a pumice airfall deposit (3–4 m thick), a basalt lava flow (3–6 m thick), a pyroclastic flow deposit (15 m thick), and an internally stratified pumice talus deposit (60 m thick). Results show that GPR is effective in delineating major stratigraphic contacts and hence can be used to map unexposed deposits. Different volcanic deposits also exhibit different radar stratigraphic character, suggesting that deposit type may be determined from radar images. In addition, large blocks within the pyroclastic deposits are detected as distinctive point diffractor patterns in the profiles, showing that the technique has potential for providing important grain-size information in coarse poorly sorted deposits. Laboratory measurements of dielectric constant (K') are reported for samples of the main rock types and are compared with values of K' for the bulk deposit as inferred from the field data. The laboratory values differ significantly from the "field" values of K'; these results suggest that the effectiveness of GPR at any site can be substantially improved by initial calibration of well-exposed locations.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004450050159

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Volcanology of the 2350 B.P. Eruption of Mount Meager Volcanic Complex, British Columbia, Canada: implications for Hazards from Eruptions in Topographically Complex Terrain (1999)

Hickson, C. J. ; Russell, J. K. ; Stasiuk, M. V.

Springer

Bulletin of volcanology 60 (1999), S. 489-507

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ISSN: 1432-0819

Keywords: Key words Mount Meager ; Volcanic stratigraphy ; Pyroclastic flow ; Lahar ; Avalanche ; Petrography ; Geochemistry

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences

Notes: Abstract The Pebble Creek Formation (previously known as the Bridge River Assemblage) comprises the eruptive products of a 2350 calendar year B.P. eruption of the Mount Meager volcanic complex and two rock avalanche deposits. Volcanic rocks of the Pebble Creek Formation are the youngest known volcanic rocks of this complex. They are dacitic in composition and contain phenocrysts of plagioclase, orthopyroxene, amphibole, biotite and minor oxides in a glassy groundmass. The eruption was episodic, and the formation comprises fallout pumice (Bridge River tephra), pyroclastic flows, lahars and a lava flow. It also includes a unique form of welded block and ash breccia derived from collapsing fronts of the lava flow. This Merapi-type breccia dammed the Lillooet River. Collapse of the dam triggered a flood that flowed down the Lillooet Valley. The flood had an estimated total volume of 109 m3 and inundated the Lillooet Valley to a depth of at least 30 m above the paleo-valley floor 5.5 km downstream of the blockage. Rock avalanches comprising mainly blocks of Plinth Assemblage volcanic rocks (an older formation making up part of the Mount Meager volcanic complex) underlie and overlie the primary volcanic units of the Formation. Both rock avalanches are unrelated to the 2350 B.P. eruption, although the post-eruption avalanche may have its origins in the over-steepened slopes created by the explosive phase of the eruption. Much of the stratigraphic complexity evident in the Pebble Creek Formation results from deposition in a narrow, steep-sided mountain valley containing a major river.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004450050247

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